For each of the environments in the table below (river, beach, shallow and deep ocean):

Have students describe from their experience what the environment is like. What sorts of
things do they think they would see there?

After describing an environment, have student groups choose which of the materials they would include in their milk carton to represent that environment (these items are listed in the second and third columns of the table).

Have students fill one of their cups about 2/3 full of the appropriate sediment and associated fossils.

Mix plaster with water according to manufacturers directions. Have each student group fill
the remainder of their cup with plaster and stir. Explain that this is much faster than rocks are actually made. The plaster acts like the cement that holds real sedimentary rocks together.

Have each group put sediment mixed with plaster into their milk carton and pat it down
to form a flat layer.

Start the next environment in the table by the same process. Make sure that student groups do not mix different layers or shake their milk carton. Mix plaster in small batches (one for each environment) to avoid it drying too quickly. For the limestone layer, mix plaster a little more watery than usual because chalk will absorb water. The plaster of the first layer does not need to be dry before adding the next. If it is really soupy, sprinkle a little dry plaster on the top before adding the next layer.

After plaster has dried (about 20 minutes), take the layers of sedimentary rock out of the milk carton. (You may need to rip the milk carton off!)

Have student groups rub it lightly with very fine sand paper and draw what the layers of "rock" look like in their notebook (noting colors, textures, and other features in the margins of their picture). Show them images of real rock layers from places like the Grand Canyon, southern Utah, or something closer to home.

ASSESSMENT:

If your class has already covered types of sedimentary rocks, ask students to identify the types
of sedimentary rocks present in their model, even though they are not real.

Ask students to recall which types of environments each rock type represents. If the environment in this one spot changed over time from a river to a beach to a shallow ocean to a deep ocean what must have happened? Sea level rise!

Extension: Have students be paleontologists and dig for fossils in the layers of rock. Where would you expect to find the most clamshell fossils? Fish fossils? Use
picks, chisels and small hammers to find them.

EXTENSIONS:

Have students be paleontologists and dig for fossils in the layers of rock. Where would you expect to find the most clamshell fossils? Fish fossils? Use picks, chisels and small hammers to find them.

BACKGROUND INFORMATION:

Sea level changes can be caused when either the land level sinks (called subsidence) or when the water
level rises, or when both processes are happening together. Water level can rise because glaciers melt, adding water to the oceans, or when plate tectonic movements shallow the ocean basins displacing water onto the edges of continents. It is a natural process that has gone on since there have been oceans on Earth!

This activity works best when students have already reviewed types of sedimentary rocks (conglomerate, sandstone, shale, and limestone). Note that the same rock types can form in several different environments. This is a good topic of discussion,
especially if students recognize that the soil is potting soil found on land. Shale that forms in swampy floodplain areas can look very much like shale that is from the ocean floor or even shale from a lake bottom. Fossils are a good way to tell the difference. Similarly, sand dunes formed in the desert are made out of sandstone just like the beach sand (and not all beaches are made of sand). One must be a detective to figure out what past environments were like!

For a shorter demonstration version of this activity, omit the plaster and milk cartons and tell students the story of changing environments as you add layers of sediment and "fossils" to a rectangular fish tank (or any container that you can see through). They are able to see the layers right away, although the connection to sedimentary rocks might be more of a challenge.